NL2001519C2 - Current limiting device for installation between electrical mains and electrical loads, has current detector detecting current of electrical loads, where earth leakage switch is deactivated when detected current exceeds threshold - Google Patents

Abstract

The device (1) has a current detector for detecting current of one or more electrical loads, and a comparator (7) for comparing the detected current with an adjustable threshold. A deactivating unit (9) deactivates an earth leakage switch when the detected current exceeds the threshold.

Description

DEVICE INTENDED FOR PLACING BETWEEN THE LIGHT NET AND ONE OR MORE ELECTRIC CONSUMERS

The invention relates to a device intended for placement between the mains and one or more electrical consumers, which device is provided with means for detecting the strength of the current absorbed by the one or more electrical consumers and means for comparing the current detected current with an adjustable threshold value.

The invention acts as a current limiter. Current limiters are often used in caravans, boats, campers and the like, which are connected to the mains at camp sites and ports and have a limited current available. The use of a current limiter prevents the earth leakage circuit breaker or the plugs in the meter box on the site or in the port from breaking due to excessive power consumption. In addition to the inconvenience, restoring the tension often also entails costs.

Such a current limiter is described in the Dutch patent NL1013114. The known current limiter is connected between the mains and the one or more electrical consumers. The current limiter is provided with detection means for detecting the decreased current, a control / processing unit with which the decreased current is compared with a value to be set within a certain range for the current and further means for interrupting the voltage applied at a decreased current higher than the set value.

The present invention offers an alternative to the current limiter written above. To this end, the invention provides a device of the type mentioned in the preamble, characterized in that the device is intended for placement between the mains and an earth leakage circuit breaker and furthermore is provided with means for deactivating the earth leakage circuit breaker as soon as the detected current intensity threshold value.

An earth leakage circuit breaker is often present as standard in caravans, boats, campers and the like and forms a central security point with which all electricity consuming equipment is protected. By applying the device according to the invention, the earth leakage circuit breaker retains its function as protection against earth leaks and, in addition, together with the device, has the function of switching off the voltage if the current exceeds an adjustable threshold value. By using the device, a current limiter is realized in an advantageous manner together with the earth leakage circuit breaker.

2

In an elegant embodiment, the means for deactivating the earth leakage circuit breaker are adapted to simulate an earth leakage. In this way the earth leakage circuit breaker is deactivated in a convenient way.

In a practical elaboration of the above-mentioned embodiment, the means for deactivating the earth leakage circuit breaker consist of a series-connected electrical switch, such as a triac, which is driven by the means for comparing the detected current with an adjustable threshold value, and a electrical resistor connected to the phase input terminal and the phase output terminal or to the zero input terminal and the zero output terminal of the RCD. The test device of the earth leakage circuit breaker itself is also arranged in a similar manner. By pressing the test button on the earth leakage circuit breaker, an electrical connection is established via an electrical resistor between the phase input terminal and the phase output terminal.

In a further preferred embodiment the device is provided with indication means 15 which come into effect upon deactivation of the earth leakage circuit breaker, wherein the indication means take a first position when the earth leakage circuit breaker has been deactivated by an earth leakage and take a second position when the detected current intensity has exceeded the threshold value. In this way it is clear to the user of the device what the problem of the voltage interruption is. If the earth leakage circuit breaker has been activated because the detected current has exceeded the threshold value, the user has taken too much current and is forced to switch off one or more electrical devices. In the other case, there is a ground fault in the electrical system.

The device preferably has reset means for resetting the device to the position of use after a deactivation of the earth leakage circuit breaker. After the user has solved the cause of the earth leakage circuit breaker deactivation, the user can reset the device to the user state. This also deactivates the indication means.

In a particularly user-friendly embodiment, the device is provided with means for switching on emergency equipment, such as emergency lighting, when the earth leakage circuit breaker has been deactivated. Since the device is placed between the mains and the earth leakage circuit breaker, the device is still supplied with voltage from the voltage network when the earth leakage circuit breaker is deactivated. As a result, if the earth leakage circuit breaker is deactivated, the device can switch on emergency equipment, such as a lamp, which is particularly advantageous if the earth leakage circuit breaker is deactivated in the evening or at night. In addition, the device can also be connected to an external power supply, such as a battery, to provide power to the emergency equipment.

The invention also relates to a system of a device according to one of the aforementioned embodiments in combination with an earth leakage circuit breaker.

5

The invention will now be further elucidated with reference to a number of figures, in which

Figure 1 shows diagrammatically the voltage network, the device according to the invention, the earth leakage switches and the power consumers; Figure 2 shows schematically the device according to the invention and its components.

Figure 1 shows schematically the voltage network 4, the device according to the invention 1, the earth leakage circuit breaker 2 and the power consumers 3-1 ... 3-n. The device 1 is placed between the voltage network 4 and the earth leakage circuit breaker 2. Subsequently, all power consumers 3-1 ... 3-n are connected to the earth leakage circuit breaker.

Figure 2 shows schematically the device according to the invention 1 and its components. The device 1 is connected to both the mains 4 and the earth leakage circuit breaker 2. The decreased current is measured by the means 5 for detecting the current. The user of the device sets the threshold value for the permitted current intensity via setting means 6. Subsequently, in the means 7 the detected current from means 5 is compared with the adjustable threshold value from means 6. As soon as the detected current has exceeded the threshold value, the means 9 for deactivating the earth leakage circuit breaker are controlled by the means 7 around the earth leakage circuit breaker 2 to deactivate.

The components of the device according to the invention can be manufactured with conventional, commercially available, electronic components. The following is a list of possible means for carrying out the above-mentioned components of the device according to the invention.

The means for detecting the current intensity can be designed as a resistor network for inclusion in the neutral line, over which the load current is measured.

The adjusting means 6 can be formed by a switch with different positions and corresponding resistance values.

The means 7 for comparing the detected current from means 4 with the adjustable threshold value from means 6 can be realized by means of a differential amplifier, for example with the aid of an operational amplifier.

The means 9 for deactivating the earth leakage switch can be realized by an electronic switch for switching alternating current, such as a triac, which establishes an electrical connection between the phase input and the phase output of the earth leakage switch. An electrical resistor must be included in this electrical connection to simulate the leakage of current.

Finally, the invention is explicitly not limited to the described and shown embodiment, but generally extends to any embodiment that falls within the scope of the appended claims viewed in the light of the foregoing description and drawings.

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Claims (7)

Device for placement between the mains and one or more electrical consumers, which device is provided with means for detecting the intensity of the current absorbed by the one or more electrical consumers and means for comparing the detected current with an adjustable threshold value, characterized in that the device is intended for placement between the mains and an earth leakage circuit breaker and furthermore is provided with means for deactivating the earth leakage circuit breaker as soon as the detected current exceeds the threshold value. 10 Device as claimed in claim 1, wherein the means for deactivating the earth leakage circuit breaker adapted to simulate an earth leakage. 3. Device as claimed in claim 2, wherein the means for deactivating the earth leakage circuit breaker consist of a series-connected electrical switch, such as a triac, which is driven by the means for comparing the detected current with an adjustable threshold value, and a electrical resistor connected to the tase input terminal and the phase output terminal or to the zero input terminal and the zero output terminal of the RCD. 4. Device as claimed in any of the foregoing claims, wherein the device is provided with indication means which come into effect upon deactivation of the earth leakage switch, wherein the indication means take a first position when the earth leakage switch is deactivated by an earth leak and take a second position as the detected one current has exceeded the threshold value. 5. Device as claimed in any of the foregoing claims, wherein the device is provided with reset means for resetting the device to the position of use after a deactivation of the earth leakage circuit breaker. 6. Device as claimed in any of the foregoing claims, wherein the device is provided with means for switching on emergency equipment, such as emergency lighting, when the earth leakage circuit breaker has been deactivated. 7. System of a device according to one of the preceding claims with an earth leakage circuit breaker.